static XF86ConfBuffersPtr
xf86parseBuffers (void)
{
int token;
parsePrologue (XF86ConfBuffersPtr, XF86ConfBuffersRec)
if (xf86getSubToken (&(ptr->buf_comment)) != NUMBER)
Error ("Buffers count expected", NULL);
ptr->buf_count = val.num;
if (xf86getSubToken (&(ptr->buf_comment)) != NUMBER)
Error ("Buffers size expected", NULL);
ptr->buf_size = val.num;
if ((token = xf86getSubToken (&(ptr->buf_comment))) == STRING) {
ptr->buf_flags = val.str;
if ((token = xf86getToken (NULL)) == COMMENT)
ptr->buf_comment = xf86addComment(ptr->buf_comment, val.str);
else
xf86unGetToken(token);
}
#ifdef DEBUG
printf ("Buffers parsed\n");
#endif
return ptr;
}
XF86ConfInputPtr
xf86parseKeyboardSection (void)
{
char *s, *s1, *s2;
int l;
int token, ntoken;
parsePrologue (XF86ConfInputPtr, XF86ConfInputRec)
while ((token = xf86getToken (KeyboardTab)) != ENDSECTION)
{
switch (token)
{
case COMMENT:
ptr->inp_comment = xf86addComment(ptr->inp_comment, val.str);
break;
case KPROTOCOL:
if (xf86getSubToken (&(ptr->inp_comment)) != STRING)
Error (QUOTE_MSG, "Protocol");
ptr->inp_option_lst = xf86addNewOption(ptr->inp_option_lst,
xf86configStrdup("Protocol"),
val.str);
break;
case AUTOREPEAT:
if (xf86getSubToken (&(ptr->inp_comment)) != NUMBER)
Error (AUTOREPEAT_MSG, NULL);
s1 = xf86uLongToString(val.num);
if (xf86getSubToken (&(ptr->inp_comment)) != NUMBER)
Error (AUTOREPEAT_MSG, NULL);
s2 = xf86uLongToString(val.num);
l = strlen(s1) + 1 + strlen(s2) + 1;
s = xf86confmalloc(l);
sprintf(s, "%s %s", s1, s2);
xf86conffree(s1);
xf86conffree(s2);
ptr->inp_option_lst = xf86addNewOption(ptr->inp_option_lst,
xf86configStrdup("AutoRepeat"), s);
break;
case XLEDS:
if (xf86getSubToken (&(ptr->inp_comment)) != NUMBER)
Error (XLEDS_MSG, NULL);
s = xf86uLongToString(val.num);
l = strlen(s) + 1;
while ((token = xf86getSubToken (&(ptr->inp_comment))) == NUMBER)
{
s1 = xf86uLongToString(val.num);
l += (1 + strlen(s1));
s = xf86confrealloc(s, l);
strcat(s, " ");
strcat(s, s1);
xf86conffree(s1);
}
xf86unGetToken (token);
break;
case SERVERNUM:
xf86parseWarning(OBSOLETE_MSG, xf86tokenString());
break;
case LEFTALT:
case RIGHTALT:
case SCROLLLOCK_TOK:
case RIGHTCTL:
xf86parseWarning(OBSOLETE_MSG, xf86tokenString());
break;
ntoken = xf86getToken (KeyMapTab);
switch (ntoken)
{
case EOF_TOKEN:
xf86parseError (UNEXPECTED_EOF_MSG);
CLEANUP (ptr);
return (NULL);
break;
default:
Error (INVALID_KEYWORD_MSG, xf86tokenString ());
break;
}
break;
case VTINIT:
if (xf86getSubToken (&(ptr->inp_comment)) != STRING)
Error (QUOTE_MSG, "VTInit");
xf86parseWarning(MOVED_TO_FLAGS_MSG, "VTInit");
break;
case VTSYSREQ:
xf86parseWarning(MOVED_TO_FLAGS_MSG, "VTSysReq");
break;
case XKBDISABLE:
ptr->inp_option_lst = xf86addNewOption(ptr->inp_option_lst,
xf86configStrdup("XkbDisable"),
NULL);
break;
case XKBKEYMAP:
if (xf86getSubToken (&(ptr->inp_comment)) != STRING)
Error (QUOTE_MSG, "XKBKeymap");
ptr->inp_option_lst = xf86addNewOption(ptr->inp_option_lst,
xf86configStrdup("XkbKeymap"),
val.str);
break;
case XKBCOMPAT:
if (xf86getSubToken (&(ptr->inp_comment)) != STRING)
Error (QUOTE_MSG, "XKBCompat");
ptr->inp_option_lst = xf86addNewOption(ptr->inp_option_lst,
xf86configStrdup("XkbCompat"),
val.str);
break;
case XKBTYPES:
if (xf86getSubToken (&(ptr->inp_comment)) != STRING)
Error (QUOTE_MSG, "XKBTypes");
ptr->inp_option_lst = xf86addNewOption(ptr->inp_option_lst,
xf86configStrdup("XkbTypes"),
val.str);
break;
case XKBKEYCODES:
if (xf86getSubToken (&(ptr->inp_comment)) != STRING)
Error (QUOTE_MSG, "XKBKeycodes");
ptr->inp_option_lst = xf86addNewOption(ptr->inp_option_lst,
xf86configStrdup("XkbKeycodes"),
val.str);
break;
case XKBGEOMETRY:
if (xf86getSubToken (&(ptr->inp_comment)) != STRING)
Error (QUOTE_MSG, "XKBGeometry");
ptr->inp_option_lst = xf86addNewOption(ptr->inp_option_lst,
xf86configStrdup("XkbGeometry"),
val.str);
break;
case XKBSYMBOLS:
if (xf86getSubToken (&(ptr->inp_comment)) != STRING)
Error (QUOTE_MSG, "XKBSymbols");
ptr->inp_option_lst = xf86addNewOption(ptr->inp_option_lst,
xf86configStrdup("XkbSymbols"),
val.str);
break;
case XKBRULES:
if (xf86getSubToken (&(ptr->inp_comment)) != STRING)
Error (QUOTE_MSG, "XKBRules");
ptr->inp_option_lst = xf86addNewOption(ptr->inp_option_lst,
xf86configStrdup("XkbRules"),
val.str);
break;
case XKBMODEL:
if (xf86getSubToken (&(ptr->inp_comment)) != STRING)
Error (QUOTE_MSG, "XKBModel");
ptr->inp_option_lst = xf86addNewOption(ptr->inp_option_lst,
xf86configStrdup("XkbModel"),
val.str);
break;
case XKBLAYOUT:
if (xf86getSubToken (&(ptr->inp_comment)) != STRING)
Error (QUOTE_MSG, "XKBLayout");
ptr->inp_option_lst = xf86addNewOption(ptr->inp_option_lst,
xf86configStrdup("XkbLayout"),
val.str);
break;
case XKBVARIANT:
if (xf86getSubToken (&(ptr->inp_comment)) != STRING)
Error (QUOTE_MSG, "XKBVariant");
ptr->inp_option_lst = xf86addNewOption(ptr->inp_option_lst,
xf86configStrdup("XkbVariant"),
val.str);
break;
case XKBOPTIONS:
if (xf86getSubToken (&(ptr->inp_comment)) != STRING)
Error (QUOTE_MSG, "XKBOptions");
ptr->inp_option_lst = xf86addNewOption(ptr->inp_option_lst,
xf86configStrdup("XkbOptions"),
val.str);
break;
case PANIX106:
ptr->inp_option_lst = xf86addNewOption(ptr->inp_option_lst,
xf86configStrdup("Panix106"), NULL);
break;
case EOF_TOKEN:
Error (UNEXPECTED_EOF_MSG, NULL);
break;
default:
Error (INVALID_KEYWORD_MSG, xf86tokenString ());
break;
}
}
ptr->inp_identifier = xf86configStrdup(CONF_IMPLICIT_KEYBOARD);
ptr->inp_driver = xf86configStrdup("keyboard");
ptr->inp_option_lst = xf86addNewOption(ptr->inp_option_lst,
xf86configStrdup("CoreKeyboard"), NULL);
#ifdef DEBUG
printf ("Keyboard section parsed\n");
#endif
return ptr;
}
XF86ConfLayoutPtr
xf86parseLayoutSection(void)
{
int has_ident = FALSE;
int token;
parsePrologue(XF86ConfLayoutPtr, XF86ConfLayoutRec)
while ((token = xf86getToken(LayoutTab)) != ENDSECTION) {
switch (token) {
case COMMENT:
ptr->lay_comment = xf86addComment(ptr->lay_comment, val.str);
break;
case IDENTIFIER:
if (xf86getSubToken(&(ptr->lay_comment)) != STRING)
Error(QUOTE_MSG, "Identifier");
if (has_ident == TRUE)
Error(MULTIPLE_MSG, "Identifier");
ptr->lay_identifier = val.str;
has_ident = TRUE;
break;
case INACTIVE:
{
XF86ConfInactivePtr iptr;
iptr = calloc(1, sizeof(XF86ConfInactiveRec));
iptr->list.next = NULL;
if (xf86getSubToken(&(ptr->lay_comment)) != STRING) {
free(iptr);
Error(INACTIVE_MSG);
}
iptr->inactive_device_str = val.str;
ptr->lay_inactive_lst = (XF86ConfInactivePtr)
xf86addListItem((glp) ptr->lay_inactive_lst, (glp) iptr);
}
break;
case SCREEN:
{
XF86ConfAdjacencyPtr aptr;
int absKeyword = 0;
aptr = calloc(1, sizeof(XF86ConfAdjacencyRec));
aptr->list.next = NULL;
aptr->adj_scrnum = -1;
aptr->adj_where = CONF_ADJ_OBSOLETE;
aptr->adj_x = 0;
aptr->adj_y = 0;
aptr->adj_refscreen = NULL;
if ((token = xf86getSubToken(&(ptr->lay_comment))) == NUMBER)
aptr->adj_scrnum = val.num;
else
xf86unGetToken(token);
token = xf86getSubToken(&(ptr->lay_comment));
if (token != STRING) {
free(aptr);
Error(SCREEN_MSG);
}
aptr->adj_screen_str = val.str;
token = xf86getSubTokenWithTab(&(ptr->lay_comment), AdjTab);
switch (token) {
case RIGHTOF:
aptr->adj_where = CONF_ADJ_RIGHTOF;
break;
case LEFTOF:
aptr->adj_where = CONF_ADJ_LEFTOF;
break;
case ABOVE:
aptr->adj_where = CONF_ADJ_ABOVE;
break;
case BELOW:
aptr->adj_where = CONF_ADJ_BELOW;
break;
case RELATIVE:
aptr->adj_where = CONF_ADJ_RELATIVE;
break;
case ABSOLUTE:
aptr->adj_where = CONF_ADJ_ABSOLUTE;
absKeyword = 1;
break;
case EOF_TOKEN:
free(aptr);
Error(UNEXPECTED_EOF_MSG);
break;
default:
xf86unGetToken(token);
token = xf86getSubToken(&(ptr->lay_comment));
if (token == STRING)
aptr->adj_where = CONF_ADJ_OBSOLETE;
else
aptr->adj_where = CONF_ADJ_ABSOLUTE;
}
switch (aptr->adj_where) {
case CONF_ADJ_ABSOLUTE:
if (absKeyword)
token = xf86getSubToken(&(ptr->lay_comment));
if (token == NUMBER) {
aptr->adj_x = val.num;
token = xf86getSubToken(&(ptr->lay_comment));
if (token != NUMBER) {
free(aptr);
Error(INVALID_SCR_MSG);
}
aptr->adj_y = val.num;
}
else {
if (absKeyword) {
free(aptr);
Error(INVALID_SCR_MSG);
}
else
xf86unGetToken(token);
}
break;
case CONF_ADJ_RIGHTOF:
case CONF_ADJ_LEFTOF:
case CONF_ADJ_ABOVE:
case CONF_ADJ_BELOW:
case CONF_ADJ_RELATIVE:
token = xf86getSubToken(&(ptr->lay_comment));
if (token != STRING) {
free(aptr);
Error(INVALID_SCR_MSG);
}
aptr->adj_refscreen = val.str;
if (aptr->adj_where == CONF_ADJ_RELATIVE) {
token = xf86getSubToken(&(ptr->lay_comment));
if (token != NUMBER) {
free(aptr);
Error(INVALID_SCR_MSG);
}
aptr->adj_x = val.num;
token = xf86getSubToken(&(ptr->lay_comment));
if (token != NUMBER) {
free(aptr);
Error(INVALID_SCR_MSG);
}
aptr->adj_y = val.num;
}
break;
case CONF_ADJ_OBSOLETE:
/* top */
aptr->adj_top_str = val.str;
/* bottom */
if (xf86getSubToken(&(ptr->lay_comment)) != STRING) {
free(aptr);
Error(SCREEN_MSG);
}
aptr->adj_bottom_str = val.str;
/* left */
if (xf86getSubToken(&(ptr->lay_comment)) != STRING) {
free(aptr);
Error(SCREEN_MSG);
}
aptr->adj_left_str = val.str;
/* right */
if (xf86getSubToken(&(ptr->lay_comment)) != STRING) {
free(aptr);
Error(SCREEN_MSG);
}
aptr->adj_right_str = val.str;
}
ptr->lay_adjacency_lst = (XF86ConfAdjacencyPtr)
xf86addListItem((glp) ptr->lay_adjacency_lst, (glp) aptr);
}
break;
case INPUTDEVICE:
{
XF86ConfInputrefPtr iptr;
iptr = calloc(1, sizeof(XF86ConfInputrefRec));
iptr->list.next = NULL;
iptr->iref_option_lst = NULL;
if (xf86getSubToken(&(ptr->lay_comment)) != STRING) {
free(iptr);
Error(INPUTDEV_MSG);
}
iptr->iref_inputdev_str = val.str;
while ((token = xf86getSubToken(&(ptr->lay_comment))) == STRING) {
iptr->iref_option_lst =
xf86addNewOption(iptr->iref_option_lst, val.str, NULL);
}
xf86unGetToken(token);
ptr->lay_input_lst = (XF86ConfInputrefPtr)
xf86addListItem((glp) ptr->lay_input_lst, (glp) iptr);
}
break;
case OPTION:
ptr->lay_option_lst = xf86parseOption(ptr->lay_option_lst);
break;
case EOF_TOKEN:
Error(UNEXPECTED_EOF_MSG);
break;
default:
Error(INVALID_KEYWORD_MSG, xf86tokenString());
break;
}
}
if (!has_ident)
Error(NO_IDENT_MSG);
#ifdef DEBUG
printf("Layout section parsed\n");
#endif
return ptr;
}
XF86ConfDevicePtr
xf86parseDeviceSection(void)
{
int i;
int has_ident = FALSE;
int token;
parsePrologue(XF86ConfDevicePtr, XF86ConfDeviceRec)
/* Zero is a valid value for these */
ptr->dev_chipid = -1;
ptr->dev_chiprev = -1;
ptr->dev_irq = -1;
while ((token = xf86getToken(DeviceTab)) != ENDSECTION) {
switch (token) {
case COMMENT:
ptr->dev_comment = xf86addComment(ptr->dev_comment, xf86_lex_val.str);
break;
case IDENTIFIER:
if (xf86getSubToken(&(ptr->dev_comment)) != STRING)
Error(QUOTE_MSG, "Identifier");
if (has_ident == TRUE)
Error(MULTIPLE_MSG, "Identifier");
ptr->dev_identifier = xf86_lex_val.str;
has_ident = TRUE;
break;
case VENDOR:
if (xf86getSubToken(&(ptr->dev_comment)) != STRING)
Error(QUOTE_MSG, "Vendor");
ptr->dev_vendor = xf86_lex_val.str;
break;
case BOARD:
if (xf86getSubToken(&(ptr->dev_comment)) != STRING)
Error(QUOTE_MSG, "Board");
ptr->dev_board = xf86_lex_val.str;
break;
case CHIPSET:
if (xf86getSubToken(&(ptr->dev_comment)) != STRING)
Error(QUOTE_MSG, "Chipset");
ptr->dev_chipset = xf86_lex_val.str;
break;
case CARD:
if (xf86getSubToken(&(ptr->dev_comment)) != STRING)
Error(QUOTE_MSG, "Card");
ptr->dev_card = xf86_lex_val.str;
break;
case DRIVER:
if (xf86getSubToken(&(ptr->dev_comment)) != STRING)
Error(QUOTE_MSG, "Driver");
ptr->dev_driver = xf86_lex_val.str;
break;
case RAMDAC:
if (xf86getSubToken(&(ptr->dev_comment)) != STRING)
Error(QUOTE_MSG, "Ramdac");
ptr->dev_ramdac = xf86_lex_val.str;
break;
case DACSPEED:
for (i = 0; i < CONF_MAXDACSPEEDS; i++)
ptr->dev_dacSpeeds[i] = 0;
if (xf86getSubToken(&(ptr->dev_comment)) != NUMBER) {
Error(DACSPEED_MSG, CONF_MAXDACSPEEDS);
}
else {
ptr->dev_dacSpeeds[0] = (int) (xf86_lex_val.realnum * 1000.0 + 0.5);
for (i = 1; i < CONF_MAXDACSPEEDS; i++) {
if (xf86getSubToken(&(ptr->dev_comment)) == NUMBER)
ptr->dev_dacSpeeds[i] = (int)
(xf86_lex_val.realnum * 1000.0 + 0.5);
else {
xf86unGetToken(token);
break;
}
}
}
break;
case VIDEORAM:
if (xf86getSubToken(&(ptr->dev_comment)) != NUMBER)
Error(NUMBER_MSG, "VideoRam");
ptr->dev_videoram = xf86_lex_val.num;
break;
case BIOSBASE:
if (xf86getSubToken(&(ptr->dev_comment)) != NUMBER)
Error(NUMBER_MSG, "BIOSBase");
/* ignored */
break;
case MEMBASE:
if (xf86getSubToken(&(ptr->dev_comment)) != NUMBER)
Error(NUMBER_MSG, "MemBase");
ptr->dev_mem_base = xf86_lex_val.num;
break;
case IOBASE:
if (xf86getSubToken(&(ptr->dev_comment)) != NUMBER)
Error(NUMBER_MSG, "IOBase");
ptr->dev_io_base = xf86_lex_val.num;
break;
case CLOCKCHIP:
if (xf86getSubToken(&(ptr->dev_comment)) != STRING)
Error(QUOTE_MSG, "ClockChip");
ptr->dev_clockchip = xf86_lex_val.str;
break;
case CHIPID:
if (xf86getSubToken(&(ptr->dev_comment)) != NUMBER)
Error(NUMBER_MSG, "ChipID");
ptr->dev_chipid = xf86_lex_val.num;
break;
case CHIPREV:
if (xf86getSubToken(&(ptr->dev_comment)) != NUMBER)
Error(NUMBER_MSG, "ChipRev");
ptr->dev_chiprev = xf86_lex_val.num;
break;
case CLOCKS:
token = xf86getSubToken(&(ptr->dev_comment));
for (i = ptr->dev_clocks;
token == NUMBER && i < CONF_MAXCLOCKS; i++) {
ptr->dev_clock[i] = (int) (xf86_lex_val.realnum * 1000.0 + 0.5);
token = xf86getSubToken(&(ptr->dev_comment));
}
ptr->dev_clocks = i;
xf86unGetToken(token);
break;
case MATCHSEAT:
if (xf86getSubToken(&(ptr->dev_comment)) != STRING)
Error(QUOTE_MSG, "MatchSeat");
ptr->match_seat = xf86_lex_val.str;
break;
case OPTION:
ptr->dev_option_lst = xf86parseOption(ptr->dev_option_lst);
break;
case BUSID:
if (xf86getSubToken(&(ptr->dev_comment)) != STRING)
Error(QUOTE_MSG, "BusID");
ptr->dev_busid = xf86_lex_val.str;
break;
case IRQ:
if (xf86getSubToken(&(ptr->dev_comment)) != NUMBER)
Error(QUOTE_MSG, "IRQ");
ptr->dev_irq = xf86_lex_val.num;
break;
case SCREEN:
if (xf86getSubToken(&(ptr->dev_comment)) != NUMBER)
Error(NUMBER_MSG, "Screen");
ptr->dev_screen = xf86_lex_val.num;
break;
case EOF_TOKEN:
Error(UNEXPECTED_EOF_MSG);
break;
default:
Error(INVALID_KEYWORD_MSG, xf86tokenString());
break;
}
}
if (!has_ident)
Error(NO_IDENT_MSG);
#ifdef DEBUG
printf("Device section parsed\n");
#endif
return ptr;
}
static XF86ConfDisplayPtr
xf86parseDisplaySubSection(void)
{
int token;
parsePrologue(XF86ConfDisplayPtr, XF86ConfDisplayRec)
ptr->disp_black.red = ptr->disp_black.green = ptr->disp_black.blue = -1;
ptr->disp_white.red = ptr->disp_white.green = ptr->disp_white.blue = -1;
ptr->disp_frameX0 = ptr->disp_frameY0 = -1;
while ((token = xf86getToken(DisplayTab)) != ENDSUBSECTION) {
switch (token) {
case COMMENT:
ptr->disp_comment = xf86addComment(ptr->disp_comment, xf86_lex_val.str);
break;
case VIEWPORT:
if (xf86getSubToken(&(ptr->disp_comment)) != NUMBER)
Error(VIEWPORT_MSG);
ptr->disp_frameX0 = xf86_lex_val.num;
if (xf86getSubToken(&(ptr->disp_comment)) != NUMBER)
Error(VIEWPORT_MSG);
ptr->disp_frameY0 = xf86_lex_val.num;
break;
case VIRTUAL:
if (xf86getSubToken(&(ptr->disp_comment)) != NUMBER)
Error(VIRTUAL_MSG);
ptr->disp_virtualX = xf86_lex_val.num;
if (xf86getSubToken(&(ptr->disp_comment)) != NUMBER)
Error(VIRTUAL_MSG);
ptr->disp_virtualY = xf86_lex_val.num;
break;
case DEPTH:
if (xf86getSubToken(&(ptr->disp_comment)) != NUMBER)
Error(NUMBER_MSG, "Display");
ptr->disp_depth = xf86_lex_val.num;
break;
case BPP:
if (xf86getSubToken(&(ptr->disp_comment)) != NUMBER)
Error(NUMBER_MSG, "Display");
ptr->disp_bpp = xf86_lex_val.num;
break;
case VISUAL:
if (xf86getSubToken(&(ptr->disp_comment)) != STRING)
Error(QUOTE_MSG, "Display");
ptr->disp_visual = xf86_lex_val.str;
break;
case WEIGHT:
if (xf86getSubToken(&(ptr->disp_comment)) != NUMBER)
Error(WEIGHT_MSG);
ptr->disp_weight.red = xf86_lex_val.num;
if (xf86getSubToken(&(ptr->disp_comment)) != NUMBER)
Error(WEIGHT_MSG);
ptr->disp_weight.green = xf86_lex_val.num;
if (xf86getSubToken(&(ptr->disp_comment)) != NUMBER)
Error(WEIGHT_MSG);
ptr->disp_weight.blue = xf86_lex_val.num;
break;
case BLACK_TOK:
if (xf86getSubToken(&(ptr->disp_comment)) != NUMBER)
Error(BLACK_MSG);
ptr->disp_black.red = xf86_lex_val.num;
if (xf86getSubToken(&(ptr->disp_comment)) != NUMBER)
Error(BLACK_MSG);
ptr->disp_black.green = xf86_lex_val.num;
if (xf86getSubToken(&(ptr->disp_comment)) != NUMBER)
Error(BLACK_MSG);
ptr->disp_black.blue = xf86_lex_val.num;
break;
case WHITE_TOK:
if (xf86getSubToken(&(ptr->disp_comment)) != NUMBER)
Error(WHITE_MSG);
ptr->disp_white.red = xf86_lex_val.num;
if (xf86getSubToken(&(ptr->disp_comment)) != NUMBER)
Error(WHITE_MSG);
ptr->disp_white.green = xf86_lex_val.num;
if (xf86getSubToken(&(ptr->disp_comment)) != NUMBER)
Error(WHITE_MSG);
ptr->disp_white.blue = xf86_lex_val.num;
break;
case MODES:
{
XF86ModePtr mptr;
while ((token =
xf86getSubTokenWithTab(&(ptr->disp_comment),
DisplayTab)) == STRING) {
mptr = calloc(1, sizeof(XF86ModeRec));
mptr->mode_name = xf86_lex_val.str;
mptr->list.next = NULL;
ptr->disp_mode_lst = (XF86ModePtr)
xf86addListItem((glp) ptr->disp_mode_lst, (glp) mptr);
}
xf86unGetToken(token);
}
break;
case OPTION:
ptr->disp_option_lst = xf86parseOption(ptr->disp_option_lst);
break;
case EOF_TOKEN:
Error(UNEXPECTED_EOF_MSG);
break;
default:
Error(INVALID_KEYWORD_MSG, xf86tokenString());
break;
}
}
#ifdef DEBUG
printf("Display subsection parsed\n");
#endif
return ptr;
}
XF86ConfMonitorPtr
xf86parseMonitorSection (void)
{
int has_ident = FALSE;
int token;
parsePrologue (XF86ConfMonitorPtr, XF86ConfMonitorRec)
while ((token = xf86getToken (MonitorTab)) != ENDSECTION)
{
switch (token)
{
case COMMENT:
ptr->mon_comment = xf86addComment(ptr->mon_comment, val.str);
break;
case IDENTIFIER:
if (xf86getSubToken (&(ptr->mon_comment)) != STRING)
Error (QUOTE_MSG, "Identifier");
if (has_ident == TRUE)
Error (MULTIPLE_MSG, "Identifier");
ptr->mon_identifier = xf86configStrdup(val.str);
has_ident = TRUE;
break;
case VENDOR:
if (xf86getSubToken (&(ptr->mon_comment)) != STRING)
Error (QUOTE_MSG, "Vendor");
ptr->mon_vendor = xf86configStrdup(val.str);
break;
case MODEL:
if (xf86getSubToken (&(ptr->mon_comment)) != STRING)
Error (QUOTE_MSG, "ModelName");
ptr->mon_modelname = xf86configStrdup(val.str);
break;
case MODE:
HANDLE_LIST (mon_modeline_lst, xf86parseVerboseMode,
XF86ConfModeLinePtr);
break;
case MODELINE:
HANDLE_LIST (mon_modeline_lst, xf86parseModeLine,
XF86ConfModeLinePtr);
break;
case DISPLAYSIZE:
if (xf86getSubToken (&(ptr->mon_comment)) != NUMBER)
Error (DISPLAYSIZE_MSG, NULL);
ptr->mon_width = val.realnum;
if (xf86getSubToken (&(ptr->mon_comment)) != NUMBER)
Error (DISPLAYSIZE_MSG, NULL);
ptr->mon_height = val.realnum;
break;
case HORIZSYNC:
if (xf86getSubToken (&(ptr->mon_comment)) != NUMBER)
Error (HORIZSYNC_MSG, NULL);
do {
ptr->mon_hsync[ptr->mon_n_hsync].lo = val.realnum;
switch (token = xf86getSubToken (&(ptr->mon_comment)))
{
case COMMA:
ptr->mon_hsync[ptr->mon_n_hsync].hi =
ptr->mon_hsync[ptr->mon_n_hsync].lo;
break;
case DASH:
if (xf86getSubToken (&(ptr->mon_comment)) != NUMBER ||
(float)val.realnum < ptr->mon_hsync[ptr->mon_n_hsync].lo)
Error (HORIZSYNC_MSG, NULL);
ptr->mon_hsync[ptr->mon_n_hsync].hi = val.realnum;
if ((token = xf86getSubToken (&(ptr->mon_comment))) == COMMA)
break;
ptr->mon_n_hsync++;
goto HorizDone;
default:
/* We cannot currently know if a '\n' was found,
* or this is a real error
*/
ptr->mon_hsync[ptr->mon_n_hsync].hi =
ptr->mon_hsync[ptr->mon_n_hsync].lo;
ptr->mon_n_hsync++;
goto HorizDone;
}
if (ptr->mon_n_hsync >= CONF_MAX_HSYNC)
Error ("Sorry. Too many horizontal sync intervals.", NULL);
ptr->mon_n_hsync++;
} while ((token = xf86getSubToken (&(ptr->mon_comment))) == NUMBER);
HorizDone:
xf86unGetToken (token);
break;
case VERTREFRESH:
if (xf86getSubToken (&(ptr->mon_comment)) != NUMBER)
Error (VERTREFRESH_MSG, NULL);
do {
ptr->mon_vrefresh[ptr->mon_n_vrefresh].lo = val.realnum;
switch (token = xf86getSubToken (&(ptr->mon_comment)))
{
case COMMA:
ptr->mon_vrefresh[ptr->mon_n_vrefresh].hi =
ptr->mon_vrefresh[ptr->mon_n_vrefresh].lo;
break;
case DASH:
if (xf86getSubToken (&(ptr->mon_comment)) != NUMBER ||
(float)val.realnum < ptr->mon_vrefresh[ptr->mon_n_vrefresh].lo)
Error (VERTREFRESH_MSG, NULL);
ptr->mon_vrefresh[ptr->mon_n_vrefresh].hi = val.realnum;
if ((token = xf86getSubToken (&(ptr->mon_comment))) == COMMA)
break;
ptr->mon_n_vrefresh++;
goto VertDone;
default:
/* We cannot currently know if a '\n' was found,
* or this is a real error
*/
ptr->mon_vrefresh[ptr->mon_n_vrefresh].hi =
ptr->mon_vrefresh[ptr->mon_n_vrefresh].lo;
ptr->mon_n_vrefresh++;
goto VertDone;
}
if (ptr->mon_n_vrefresh >= CONF_MAX_VREFRESH)
Error ("Sorry. Too many vertical refresh intervals.", NULL);
ptr->mon_n_vrefresh++;
} while ((token = xf86getSubToken (&(ptr->mon_comment))) == NUMBER);
VertDone:
xf86unGetToken (token);
break;
case GAMMA:
if( xf86getSubToken (&(ptr->mon_comment)) != NUMBER )
{
Error (INVALID_GAMMA_MSG, NULL);
}
else
{
ptr->mon_gamma_red = ptr->mon_gamma_green =
ptr->mon_gamma_blue = val.realnum;
if( xf86getSubToken (&(ptr->mon_comment)) == NUMBER )
{
ptr->mon_gamma_green = val.realnum;
if( xf86getSubToken (&(ptr->mon_comment)) == NUMBER )
{
ptr->mon_gamma_blue = val.realnum;
}
else
{
Error (INVALID_GAMMA_MSG, NULL);
}
}
else
xf86unGetToken (token);
}
break;
case OPTION:
ptr->mon_option_lst = xf86parseOption(ptr->mon_option_lst);
break;
case USEMODES:
{
XF86ConfModesLinkPtr mptr;
if ((token = xf86getSubToken (&(ptr->mon_comment))) != STRING)
Error (QUOTE_MSG, "UseModes");
/* add to the end of the list of modes sections
referenced here */
mptr = xf86confcalloc (1, sizeof (XF86ConfModesLinkRec));
mptr->list.next = NULL;
mptr->ml_modes_str = xf86configStrdup(val.str);
mptr->ml_modes = NULL;
ptr->mon_modes_sect_lst = (XF86ConfModesLinkPtr)
xf86addListItem((GenericListPtr)ptr->mon_modes_sect_lst,
(GenericListPtr)mptr);
}
break;
case EOF_TOKEN:
Error (UNEXPECTED_EOF_MSG, NULL);
break;
default:
xf86parseError (INVALID_KEYWORD_MSG, xf86tokenString ());
CLEANUP (ptr);
return NULL;
}
}
if (!has_ident)
Error (NO_IDENT_MSG, NULL);
#ifdef DEBUG
printf ("Monitor section parsed\n");
#endif
return ptr;
}
XF86ConfModeLinePtr
xf86parseVerboseMode (void)
{
int token, token2;
int had_dotclock = 0, had_htimings = 0, had_vtimings = 0;
parsePrologue (XF86ConfModeLinePtr, XF86ConfModeLineRec)
if (xf86getSubToken (&(ptr->ml_comment)) != STRING)
Error ("Mode name expected", NULL);
ptr->ml_identifier = xf86configStrdup(val.str);
while ((token = xf86getToken (ModeTab)) != ENDMODE)
{
switch (token)
{
case COMMENT:
ptr->ml_comment = xf86addComment(ptr->ml_comment, val.str);
break;
case DOTCLOCK:
if ((token = xf86getSubToken (&(ptr->ml_comment))) != NUMBER)
Error (NUMBER_MSG, "DotClock");
ptr->ml_clock = (int) (val.realnum * 1000.0 + 0.5);
had_dotclock = 1;
break;
case HTIMINGS:
if (xf86getSubToken (&(ptr->ml_comment)) == NUMBER)
ptr->ml_hdisplay = val.num;
else
Error ("Horizontal display expected", NULL);
if (xf86getSubToken (&(ptr->ml_comment)) == NUMBER)
ptr->ml_hsyncstart = val.num;
else
Error ("Horizontal sync start expected", NULL);
if (xf86getSubToken (&(ptr->ml_comment)) == NUMBER)
ptr->ml_hsyncend = val.num;
else
Error ("Horizontal sync end expected", NULL);
if (xf86getSubToken (&(ptr->ml_comment)) == NUMBER)
ptr->ml_htotal = val.num;
else
Error ("Horizontal total expected", NULL);
had_htimings = 1;
break;
case VTIMINGS:
if (xf86getSubToken (&(ptr->ml_comment)) == NUMBER)
ptr->ml_vdisplay = val.num;
else
Error ("Vertical display expected", NULL);
if (xf86getSubToken (&(ptr->ml_comment)) == NUMBER)
ptr->ml_vsyncstart = val.num;
else
Error ("Vertical sync start expected", NULL);
if (xf86getSubToken (&(ptr->ml_comment)) == NUMBER)
ptr->ml_vsyncend = val.num;
else
Error ("Vertical sync end expected", NULL);
if (xf86getSubToken (&(ptr->ml_comment)) == NUMBER)
ptr->ml_vtotal = val.num;
else
Error ("Vertical total expected", NULL);
had_vtimings = 1;
break;
case FLAGS:
token = xf86getSubToken (&(ptr->ml_comment));
if (token != STRING)
Error (QUOTE_MSG, "Flags");
while (token == STRING)
{
token2 = xf86getStringToken (TimingTab);
switch (token2)
{
case TT_INTERLACE:
ptr->ml_flags |= XF86CONF_INTERLACE;
break;
case TT_PHSYNC:
ptr->ml_flags |= XF86CONF_PHSYNC;
break;
case TT_NHSYNC:
ptr->ml_flags |= XF86CONF_NHSYNC;
break;
case TT_PVSYNC:
ptr->ml_flags |= XF86CONF_PVSYNC;
break;
case TT_NVSYNC:
ptr->ml_flags |= XF86CONF_NVSYNC;
break;
case TT_CSYNC:
ptr->ml_flags |= XF86CONF_CSYNC;
break;
case TT_PCSYNC:
ptr->ml_flags |= XF86CONF_PCSYNC;
break;
case TT_NCSYNC:
ptr->ml_flags |= XF86CONF_NCSYNC;
break;
case TT_DBLSCAN:
ptr->ml_flags |= XF86CONF_DBLSCAN;
break;
case TT_CUSTOM:
ptr->ml_flags |= XF86CONF_CUSTOM;
break;
case EOF_TOKEN:
Error (UNEXPECTED_EOF_MSG, NULL);
break;
default:
Error ("Unknown flag string", NULL);
break;
}
token = xf86getSubToken (&(ptr->ml_comment));
}
xf86unGetToken (token);
break;
case HSKEW:
if (xf86getSubToken (&(ptr->ml_comment)) != NUMBER)
Error ("Horizontal skew expected", NULL);
ptr->ml_flags |= XF86CONF_HSKEW;
ptr->ml_hskew = val.num;
break;
case VSCAN:
if (xf86getSubToken (&(ptr->ml_comment)) != NUMBER)
Error ("Vertical scan count expected", NULL);
ptr->ml_flags |= XF86CONF_VSCAN;
ptr->ml_vscan = val.num;
break;
case EOF_TOKEN:
Error (UNEXPECTED_EOF_MSG, NULL);
break;
default:
Error ("Unexepcted token in verbose \"Mode\" entry\n", NULL);
}
}
if (!had_dotclock)
Error ("the dotclock is missing", NULL);
if (!had_htimings)
Error ("the horizontal timings are missing", NULL);
if (!had_vtimings)
Error ("the vertical timings are missing", NULL);
#ifdef DEBUG
printf ("Verbose Mode parsed\n");
#endif
return (ptr);
}
XF86ConfModeLinePtr
xf86parseModeLine (void)
{
int token;
parsePrologue (XF86ConfModeLinePtr, XF86ConfModeLineRec)
/* Identifier */
if (xf86getSubToken (&(ptr->ml_comment)) != STRING)
Error ("ModeLine identifier expected", NULL);
ptr->ml_identifier = xf86configStrdup(val.str);
/* DotClock */
if (xf86getSubToken (&(ptr->ml_comment)) != NUMBER)
Error ("ModeLine dotclock expected", NULL);
ptr->ml_clock = (int) (val.realnum * 1000.0 + 0.5);
/* HDisplay */
if (xf86getSubToken (&(ptr->ml_comment)) != NUMBER)
Error ("ModeLine Hdisplay expected", NULL);
ptr->ml_hdisplay = val.num;
/* HSyncStart */
if (xf86getSubToken (&(ptr->ml_comment)) != NUMBER)
Error ("ModeLine HSyncStart expected", NULL);
ptr->ml_hsyncstart = val.num;
/* HSyncEnd */
if (xf86getSubToken (&(ptr->ml_comment)) != NUMBER)
Error ("ModeLine HSyncEnd expected", NULL);
ptr->ml_hsyncend = val.num;
/* HTotal */
if (xf86getSubToken (&(ptr->ml_comment)) != NUMBER)
Error ("ModeLine HTotal expected", NULL);
ptr->ml_htotal = val.num;
/* VDisplay */
if (xf86getSubToken (&(ptr->ml_comment)) != NUMBER)
Error ("ModeLine Vdisplay expected", NULL);
ptr->ml_vdisplay = val.num;
/* VSyncStart */
if (xf86getSubToken (&(ptr->ml_comment)) != NUMBER)
Error ("ModeLine VSyncStart expected", NULL);
ptr->ml_vsyncstart = val.num;
/* VSyncEnd */
if (xf86getSubToken (&(ptr->ml_comment)) != NUMBER)
Error ("ModeLine VSyncEnd expected", NULL);
ptr->ml_vsyncend = val.num;
/* VTotal */
if (xf86getSubToken (&(ptr->ml_comment)) != NUMBER)
Error ("ModeLine VTotal expected", NULL);
ptr->ml_vtotal = val.num;
token = xf86getSubTokenWithTab (&(ptr->ml_comment), TimingTab);
while ((token == TT_INTERLACE) || (token == TT_PHSYNC) ||
(token == TT_NHSYNC) || (token == TT_PVSYNC) ||
(token == TT_NVSYNC) || (token == TT_CSYNC) ||
(token == TT_PCSYNC) || (token == TT_NCSYNC) ||
(token == TT_DBLSCAN) || (token == TT_HSKEW) ||
(token == TT_VSCAN) || (token == TT_BCAST))
{
switch (token)
{
case TT_INTERLACE:
ptr->ml_flags |= XF86CONF_INTERLACE;
break;
case TT_PHSYNC:
ptr->ml_flags |= XF86CONF_PHSYNC;
break;
case TT_NHSYNC:
ptr->ml_flags |= XF86CONF_NHSYNC;
break;
case TT_PVSYNC:
ptr->ml_flags |= XF86CONF_PVSYNC;
break;
case TT_NVSYNC:
ptr->ml_flags |= XF86CONF_NVSYNC;
break;
case TT_CSYNC:
ptr->ml_flags |= XF86CONF_CSYNC;
break;
case TT_PCSYNC:
ptr->ml_flags |= XF86CONF_PCSYNC;
break;
case TT_NCSYNC:
ptr->ml_flags |= XF86CONF_NCSYNC;
break;
case TT_DBLSCAN:
ptr->ml_flags |= XF86CONF_DBLSCAN;
break;
case TT_HSKEW:
if (xf86getSubToken (&(ptr->ml_comment)) != NUMBER)
Error (NUMBER_MSG, "Hskew");
ptr->ml_hskew = val.num;
ptr->ml_flags |= XF86CONF_HSKEW;
break;
case TT_BCAST:
ptr->ml_flags |= XF86CONF_BCAST;
break;
case TT_VSCAN:
if (xf86getSubToken (&(ptr->ml_comment)) != NUMBER)
Error (NUMBER_MSG, "Vscan");
ptr->ml_vscan = val.num;
ptr->ml_flags |= XF86CONF_VSCAN;
break;
case TT_CUSTOM:
ptr->ml_flags |= XF86CONF_CUSTOM;
break;
case EOF_TOKEN:
Error (UNEXPECTED_EOF_MSG, NULL);
break;
default:
Error (INVALID_KEYWORD_MSG, xf86tokenString ());
break;
}
token = xf86getSubTokenWithTab (&(ptr->ml_comment), TimingTab);
}
xf86unGetToken (token);
#ifdef DEBUG
printf ("ModeLine parsed\n");
#endif
return (ptr);
}
